Authors

Document Type

Article

Department/Program

Virginia Institute of Marine Science

Publication Date

2011

Journal

MARINE ECOLOGY PROGRESS SERIES

Volume

428

First Page

245

Last Page

258

Abstract

The depauperate marine ecosystems of the Hawaiian Archipelago share a high proportion of species with the southern and western Pacific, indicating historical and/or ongoing connections across the large oceanic expanse separating Hawaii from its nearest neighbors. The rate and direction of these interactions are, however, unknown. While previous biogeographic studies have consistently described Hawaii as a diversity sink, prevailing currents likely offer opportunities for larval export. To assess interactions between the remote reefs of the Hawaiian Archipelago and the species-rich communities of the Central and West Pacific, we surveyed 14 nuclear microsatellite loci (nDNA, n = 857) and a 614 bp segment of mitochondrial cytochrome b (mtDNA, n = 654) in the yellow tang Zebrasoma flavescens. Concordant frequency shifts in both nDNA and mtDNA reveal significant population differentiation among 3 West Pacific sites and Hawaii (nDNA F-CT' = 0.116; mtDNA phi(CT) = 0.098, p < 0.001). SAMOVA analyses of microsatellite data additionally indicate fine scale differentiation within the 2600 km Hawaiian Archipelago (F-SC' = 0.026, p < 0.001), which has implications for management of this heavily-exploited aquarium fish. Mismatch analyses indicate the oldest contemporary populations are in the Hawaiian Archipelago (ca. 318 000 yr) with younger populations in the West Pacific (91 000 to 175 000 yr). Estimates of yellow tang historical demography contradict expectations of Hawaii as a population sink and instead indicate asymmetrical gene flow, with Hawaii exporting rather than importing yellow tang larvae.